{#     Copyright 2024, Kay Hayen, mailto:kay.hayen@gmail.com find license text at end of file #}

{% from 'HelperSlotsCommon.c.j2' import goto_exit, constant_long_exit_target, constant_int_exit_target %}
{% from 'HelperLongTools.c.j2' import declare_long_access with context %}
{% macro long_slot(props, operator, nb_slot, target, left, right, result, operand1, operand2, exit_result_ok, exit_result_exception) %}
    // Not every code path will make use of all possible results.
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4101)
#endif
    NUITKA_MAY_BE_UNUSED PyObject *obj_result;
    NUITKA_MAY_BE_UNUSED long clong_result;
#ifdef _MSC_VER
#pragma warning(pop)
#endif

{% if operator == "+" %}
    {{ declare_long_access(left, operand1) }}
    {{ declare_long_access(right, operand2) }}

    if ({{ left.getLongValueDigitCountExpression("operand1")}} <= 1 && {{ right.getLongValueDigitCountExpression("operand2")}} <= 1) {
        {# TODO: Double digits are not handled efficiently for Python3.12 #}
        long r = (long)({{ left.getLongValueMediumValueExpression("operand1") }} + {{ right.getLongValueMediumValueExpression("operand2") }});

{% if target == None and left.hasReferenceCounting() %}
        if (Py_REFCNT({{operand1}}) == 1) {
            Nuitka_LongUpdateFromCLong(&{{operand1}}, (long)r);
            {{ goto_exit(props, "exit_result_ok") }}
        } else {
            PyObject *obj = Nuitka_LongFromCLong(r);

            {{ goto_exit(props, "exit_result_object", "obj") }}
        }
{% endif %}
        {{ goto_exit(props, "exit_result_ok_clong", "r") }}
    }

{% if target == None and left.hasReferenceCounting() %}
    if (Py_REFCNT({{operand1}}) == 1) {
        digit const *b_digits = {{ right.getLongValueDigitsPointerExpression("operand2") }};
        Py_ssize_t b_digit_count = {{ right.getLongValueDigitCountExpression("operand2") }};

        bool a_negative = {{ left.getLongValueIsNegativeTestExpression("operand1") }};
        bool b_negative = {{ right.getLongValueIsNegativeTestExpression("operand2") }};

        if (a_negative) {
            if (b_negative) {
                {{ operand1 }} = _Nuitka_LongAddInplaceDigits({{ operand1 }}, b_digits, b_digit_count);
                Nuitka_LongSetSignNegative({{ operand1 }});
            } else {
                {# Reversed operands order means sign inversion. #}
                {{ operand1 }} = _Nuitka_LongSubInplaceDigits({{ operand1 }}, b_digits, b_digit_count, -1);
            }
        } else {
            if (b_negative) {
                {{ operand1 }} = _Nuitka_LongSubInplaceDigits({{ operand1 }}, b_digits, b_digit_count, 1);
            } else {
                {{ operand1 }} = _Nuitka_LongAddInplaceDigits({{ operand1 }}, b_digits, b_digit_count);
            }
        }

        {{ goto_exit(props, "exit_result_ok") }}
    }
{% endif %}
    {
        {# TODO: Only LONG result is done here #}
        PyLongObject *z;

        digit const *a_digits = {{ left.getLongValueDigitsPointerExpression("operand1") }};
        Py_ssize_t a_digit_count = {{ left.getLongValueDigitCountExpression("operand1") }};
        bool a_negative = {{ left.getLongValueIsNegativeTestExpression("operand1") }};
        digit const *b_digits = {{ right.getLongValueDigitsPointerExpression("operand2") }};
        Py_ssize_t b_digit_count = {{ right.getLongValueDigitCountExpression("operand2") }};
        bool b_negative = {{ right.getLongValueIsNegativeTestExpression("operand2") }};

        if (a_negative) {
            if (b_negative) {
                z = _Nuitka_LongAddDigits(a_digits, a_digit_count, b_digits, b_digit_count);
                Nuitka_LongFlipSign(z);
            } else {
                {# Reversed operands order. #}
                z = _Nuitka_LongSubDigits(b_digits, b_digit_count, a_digits, a_digit_count);
            }
        } else {
            if (b_negative) {
                z = _Nuitka_LongSubDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            } else {
                z = _Nuitka_LongAddDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            }
        }

        {{ goto_exit(props, "exit_result_object", "(PyObject *)z") }}
    }
{% elif operator == "-" %}
    {{ declare_long_access(left, operand1) }}
    {{ declare_long_access(right, operand2) }}

    if ({{ left.getLongValueDigitCountExpression("operand1")}} <= 1 && {{ right.getLongValueDigitCountExpression("operand2")}} <= 1) {
        {# TODO: Double digits are not handled efficiently for Python3.12 #}
        long r = (long)({{ left.getLongValueMediumValueExpression("operand1") }} - {{ right.getLongValueMediumValueExpression("operand2") }});

{% if target == None and left.hasReferenceCounting() %}
        if (Py_REFCNT({{operand1}}) == 1) {
            Nuitka_LongUpdateFromCLong(&{{operand1}}, r);
            {{ goto_exit(props, "exit_result_ok") }}
        } else {
            PyObject *obj = Nuitka_LongFromCLong(r);

            {{ goto_exit(props, "exit_result_object", "obj") }}
        }
{% endif %}
        {{ goto_exit(props, "exit_result_ok_clong", "r") }}
    }

{% if target == None %}
    if (Py_REFCNT({{operand1}}) == 1) {
        digit const *b_digits = {{ right.getLongValueDigitsPointerExpression("operand2") }};
        Py_ssize_t b_digit_count = {{ right.getLongValueDigitCountExpression("operand2") }};

        bool a_negative = {{ left.getLongValueIsNegativeTestExpression("operand1") }};
        bool b_negative = {{ right.getLongValueIsNegativeTestExpression("operand2") }};

        if (a_negative) {
            if (b_negative) {
                {# Reversed operands order means sign inversion. #}
                {{ operand1 }} = _Nuitka_LongSubInplaceDigits({{ operand1 }}, b_digits, b_digit_count, -1);
            } else {
                {{ operand1 }} = _Nuitka_LongAddInplaceDigits({{ operand1 }}, b_digits, b_digit_count);
                Nuitka_LongSetSignNegative({{ operand1 }});
            }
        } else {
            if (b_negative) {
                {{ operand1 }} = _Nuitka_LongAddInplaceDigits({{ operand1 }}, b_digits, b_digit_count);
            } else {
                {{ operand1 }} = _Nuitka_LongSubInplaceDigits({{ operand1 }}, b_digits, b_digit_count, 1);
            }
        }

        {{ goto_exit(props, "exit_result_ok") }}
    }
{% endif %}
    {
        {# TODO: Only LONG result is done here #}
        PyLongObject *z;

        digit const *a_digits = {{ left.getLongValueDigitsPointerExpression("operand1") }};
        Py_ssize_t a_digit_count = {{ left.getLongValueDigitCountExpression("operand1") }};
        bool a_negative = {{ left.getLongValueIsNegativeTestExpression("operand1") }};
        digit const *b_digits = {{ right.getLongValueDigitsPointerExpression("operand2") }};
        Py_ssize_t b_digit_count = {{ right.getLongValueDigitCountExpression("operand2") }};
        bool b_negative = {{ right.getLongValueIsNegativeTestExpression("operand2") }};

        if (a_negative) {
            if (b_negative) {
                z = _Nuitka_LongSubDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            } else {
                z = _Nuitka_LongAddDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            }

            Nuitka_LongFlipSign(z);
        } else {
            if (b_negative) {
                z = _Nuitka_LongAddDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            } else {
                z = _Nuitka_LongSubDigits(a_digits, a_digit_count, b_digits, b_digit_count);
            }
        }

        {{ goto_exit(props, "exit_result_object", "(PyObject *)z") }}
    }
{% else %}
    {# TODO: Could and should in-line and specialize this for more operators #}
    PyObject *x = {{ left.getSlotCallExpression(nb_slot, "PyLong_Type.tp_as_number->" + nb_slot, operand1, operand2) }};
    assert(x != Py_NotImplemented);

    {{ goto_exit(props, "exit_result_object", "x") }}
{% endif %}

exit_result_object:
    if (unlikely(obj_result == NULL)) {
        {{ goto_exit(props, exit_result_exception) }}
    }
{% if target %}
    {{ target.getAssignFromObjectExpressionCode(result, "obj_result") }}
{% else %}
    {# TODO: Check the reference we were handed down and do it in-place really. #}
    // We got an object handed, that we have to release.
    Py_DECREF({{ operand1 }});
    {{ operand1 }} = obj_result;
{% endif %}
    {{ goto_exit(props, exit_result_ok) }}

{% if "exit_result_ok_clong" in props["exits"] %}
exit_result_ok_clong:
{% if target %}
    {{ (target if target != object_desc else long_desc).getAssignFromLongExpressionCode(result, "clong_result") }}
{% else %}
    {# TODO: Check the reference we were handed down. #}

    // We got an object handed, that we have to release.
    Py_DECREF({{ operand1 }});

    // That's our return value then. As we use a dedicated variable, it's
    // OK that way.
    {{ operand1 }} = Nuitka_PyLong_FromLong(clong_result);
{% endif %}
    {{ goto_exit(props, exit_result_ok) }}
{% endif %}

{% if "exit_result_ok_const_long_0" in props["exits"] %}
{{ constant_long_exit_target(props, target, result, left, operand1, "exit_result_ok_const_long_0", 0, exit_result_ok) }}
{% endif %}

{% endmacro %}

{#     Part of "Nuitka", an optimizing Python compiler that is compatible and   #}
{#     integrates with CPython, but also works on its own.                      #}
{#                                                                              #}
{#     Licensed under the Apache License, Version 2.0 (the "License");          #}
{#     you may not use this file except in compliance with the License.         #}
{#     You may obtain a copy of the License at                                  #}
{#                                                                              #}
{#        http://www.apache.org/licenses/LICENSE-2.0                            #}
{#                                                                              #}
{#     Unless required by applicable law or agreed to in writing, software      #}
{#     distributed under the License is distributed on an "AS IS" BASIS,        #}
{#     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #}
{#     See the License for the specific language governing permissions and      #}
{#     limitations under the License.                                           #}
